Publications (6)25.94 Total impact
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Article: Analgesic effects of repetitive transcranial magnetic stimulation of the motor cortex in neuropathic pain: Influence of theta burst stimulation priming.
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ABSTRACT: 'Conventional' protocols of high-frequency repetitive transcranial magnetic stimulation (rTMS) delivered to M1 can produce analgesia. Theta burst stimulation (TBS), a novel rTMS paradigm, is thought to produce greater changes in M1 excitability than 'conventional' protocols. After a preliminary experiment showing no analgesic effect of continuous or intermittent TBS trains (cTBS or iTBS) delivered to M1 as single procedures, we used TBS to prime a subsequent session of 'conventional' 10 Hz-rTMS. In 14 patients with chronic refractory neuropathic pain, navigated rTMS was targeted over M1 hand region, contralateral to painful side. Analgesic effects were daily assessed on a visual analogue scale for the week after each 10 Hz-rTMS session, preceded or not by TBS priming. In an additional experiment, the effects on cortical excitability parameters provided by single- and paired-pulse TMS paradigms were studied. Pain level was reduced after any type of rTMS procedure compared to baseline, but iTBS priming produced greater analgesia than the other protocols. Regarding motor cortex excitability changes, the analgesic effects were associated with an increase in intracortical inhibition, whatever the type of stimulation, primed or non-primed. The present results show that the analgesic effects of 'conventional' 10 Hz-rTMS delivered to M1 can be enhanced by TBS priming, at least using iTBS. Interestingly, the application of cTBS and iTBS did not produce opposite modulations, unlike previously reported in other systems. It remains to be determined whether the interest of TBS priming is to generate a simple additive effect or a more specific process of cortical plasticity.European journal of pain (London, England) 04/2012; 16(10):1403-13. · 3.37 Impact Factor -
Article: Somatotopic organization of the analgesic effects of motor cortex rTMS in neuropathic pain.
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ABSTRACT: Motor cortex repetitive transcranial magnetic stimulation (rTMS) was found to relieve chronic neuropathic pain, but the optimal parameters of stimulation remain to be determined, including the site of stimulation. To determine the relationship between cortical stimulation site and pain site regarding the analgesic efficacy of rTMS of motor cortex in chronic neuropathic pain. Thirty-six patients with unilateral chronic neuropathic pain located at the face or the hand were enrolled. Motor cortex rTMS was applied at 10 Hz over the area corresponding to the face, hand, or arm of the painful side, whatever pain location. Analgesic effects were daily assessed on visual analogue scale for the week that followed each rTMS session. All types of rTMS session, whatever the target, significantly relieved pain, compared with baseline. However, analgesic effects were significantly better after hand than face area stimulation in patients with facial pain and after face than hand or arm area stimulation in patients with hand pain. Repetitive transcranial magnetic stimulation was more effective for pain relief when the stimulation was applied to an area adjacent to the cortical representation of the painful zone rather than to the motor cortical area corresponding to the painful zone itself. This result contradicts the somatotopic efficacy observed for chronic epidural motor cortex stimulation with surgically implanted electrodes.Neurology 01/2007; 67(11):1998-2004. · 8.31 Impact Factor -
Article: Motor cortex rTMS restores defective intracortical inhibition in chronic neuropathic pain.
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ABSTRACT: To assess cortical excitability changes in patients with chronic neuropathic pain at baseline and after repetitive transcranial magnetic stimulation (rTMS) of the motor cortex. In 22 patients with unilateral hand pain of various neurologic origins and 22 age-matched healthy controls, we studied the following parameters of cortical excitability: motor threshold at rest, motor evoked potential amplitude ratio at two intensities, cortical silent period (CSP), and intracortical inhibition (ICI) and intracortical facilitation. We compared these parameters between healthy subjects and patients at baseline. We also studied excitability changes in the motor cortex corresponding to the painful hand of patients after active or sham rTMS of this cortical region at 1 or 10 Hz. At baseline, CSP was shortened for the both hemispheres of patients vs healthy subjects, in correlation with pain score, while ICI was reduced only for the motor cortex corresponding to the painful hand. Regarding rTMS effects, the single significant change was ICI increase in the motor cortex corresponding to the painful hand, after active 10-Hz rTMS, in correlation with pain relief. Chronic neuropathic pain was associated with motor cortex disinhibition, suggesting impaired GABAergic neurotransmission related to some aspects of pain or to underlying sensory or motor disturbances. The analgesic effects produced by motor cortex stimulation could result, at least partly, from the restoration of defective intracortical inhibitory processes.Neurology 12/2006; 67(9):1568-74. · 8.31 Impact Factor -
Article: Low-frequency repetitive TMS of premotor cortex can reduce painful axial spasms in generalized secondary dystonia: a pilot study of three patients.
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ABSTRACT: Dystonia is associated with excessive corticospinal motor output. Motor cortex excitability may be reduced by low-frequency repetitive transcranial magnetic stimulation (rTMS) of premotor cortical areas. We report the effects of 1 Hz rTMS applied at 90% of resting motor threshold over the left premotor cortex in an open pilot study of three patients with severe, generalized, secondary dystonia including painful spasms in the proximal and axial musculature. A 20-min session of premotor rTMS was daily performed during 5 consecutive days. The series of rTMS sessions dramatically reduced the painful spasms, for 3-8 days after the last session, without any other significant beneficial effects. However, a slight reduction of the Movement score of the Burke, Fahn and Marsden rating scale was observed for two patients, and of the Disability score for the third one. Low-frequency rTMS of the premotor cortex may improve some specific motor symptoms in severe, generalized dystonia. These results should prompt confirmation in a larger placebo-controlled study.Neurophysiologie Clinique/Clinical Neurophysiology 11/2004; 34(3-4):141-5. · 1.98 Impact Factor -
Article: Neuropathic pain controlled for more than a year by monthly sessions of repetitive transcranial magnetic stimulation of the motor cortex.
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ABSTRACT: Neuropathic pain can be controlled by motor cortex stimulation using surgically-implanted electrodes in a majority of selected patients. Analgesic effects were also found to result from repetitive transcranial magnetic stimulation (rTMS) of the cortex. We report the case of a woman, in whom drug-resistant peripheral pain was controlled for 16 months by monthly sessions of motor cortex rTMS until a durable pain relief was obtained after surgical implantation of a cortical stimulator. This case illustrates the value of rTMS in helping patients to wait for surgery.Neurophysiologie Clinique/Clinical Neurophysiology 05/2004; 34(2):91-5. · 1.98 Impact Factor -
Article: The value of navigation-guided rTMS for the treatment of depression: an illustrative case.
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ABSTRACT: Repetitive transcranial magnetic stimulation (rTMS) of the prefrontal cortex has been thought to have great potential to treat refractory depression since the first studies published ten years ago. However, one of the potential limitations of rTMS is the poor definition of the localization of the prefrontal cortical target, which is based on a rather simplistic anatomical approach, i.e., 5cm anterior to the primary motor cortical representation of the hand. This "standard procedure" does not take into consideration interindividual variations in brain morphology. We report the case of a 40-year-old woman who underwent two weeks of 10Hz-rTMS for the treatment of a major, drug-resistant depressive episode. The rTMS target was determined with the "standard procedure" for the first week and with a dedicated navigation system as the left Brodmann area 46 for the second week. The clinical assessment of antidepressant effects was performed before and after each week of stimulation. Following the first week of stimulation, the patient improved, in particular regarding speech production. Using the navigation system, the location of the target stimulated during the first week was found to correspond to Broca's area, and not to the prefrontal area as intended. Antidepressant effects were more marked after the second week of navigated rTMS. In the present case, the prefrontal target was situated 8.3cm anterior to hand motor cortex. This illustrates that the "standard procedure" may inaccurately target the prefrontal cortex, although resulting in antidepressant-like effects. The use of navigation systems should limit the variability of the results reported so far in the treatment of depression by rTMS.Neurophysiologie Clinique/Clinical Neurophysiology 37(4):265-71. · 1.98 Impact Factor
